Treatise on Materials Science and Technology, Volume 4 |
From inside the book
Results 1-3 of 27
Page 86
These solutes must either behave very similarly to the solvent , or alternatively ,
the description given in the previous results is incomplete . One method to
determine experimentally if the model used is valid would be to perform
measurements ...
These solutes must either behave very similarly to the solvent , or alternatively ,
the description given in the previous results is incomplete . One method to
determine experimentally if the model used is valid would be to perform
measurements ...
Page 91
( 65 ) The average jump frequency of the solvent in a dilute alloy may be found by
determining the fraction of solvent atoms that jump with rates wo , W1 , W3 , and
w4 . The average jump frequency is the sum of the appropriate fractions and ...
( 65 ) The average jump frequency of the solvent in a dilute alloy may be found by
determining the fraction of solvent atoms that jump with rates wo , W1 , W3 , and
w4 . The average jump frequency is the sum of the appropriate fractions and ...
Page 104
In a sufficiently dilute binary alloy , the solute will not appreciably influence the
motion of the solvent as described by Eqs . ( 65 ) - 70 ) . With a temperature
gradient , however , Eqs . ( 22 ) – ( 24 ) imply that the solvent will have a nonzero
flux .
In a sufficiently dilute binary alloy , the solute will not appreciably influence the
motion of the solvent as described by Eqs . ( 65 ) - 70 ) . With a temperature
gradient , however , Eqs . ( 22 ) – ( 24 ) imply that the solvent will have a nonzero
flux .
What people are saying - Write a review
We haven't found any reviews in the usual places.
Contents
RICHARD W VOOK | 2 |
Epitaxial Monocrystalline Films | 10 |
Polycrystalline Films | 37 |
Copyright | |
2 other sections not shown
Other editions - View all
Common terms and phrases
activity addition alloys applied approximation average beam becomes calculated compaction component composition compression concentration considered constant copper correlation corresponding crystal cubic curve decreases defined deformation density dependence determined diffraction diffusion direction discussed dislocation disorder distribution effect electron elements energy enthalpy entropy equations example experimental expression factor fault field Figure forged function given gives increases influence interaction jump lattice material measurements mechanism metal method neighbor observed obtained occurs oriented parameter partial pattern phases Phys plane polycrystalline position possible powder present probability production properties random ratio reflections region relative respectively shown in Fig shows single crystals sintered solid solution solute atoms solvent strain strengthening stress structure Substituting surface Table temperature theoretical theory thermodynamic thin films tracer twin vacancy values variations volume X-ray yield
Bibliographic information
| Title | Treatise on Materials Science and Technology, Volume 4 Treatise on Materials Science and Technology, Herbert Herman |
| Editor | Herbert Herman |
| Publisher | Academic Press, 1972 |
| Original from | the University of Michigan |
| Digitized | 29 Nov 2007 |
| Export Citation | BiBTeX EndNote RefMan |